brand



Aug. '15, 1933. s, BRA@ M 1,922,025

CASH REGISTER Original Filed June 10, 1927 v5 Sheets-Sheet l :Iii 447 6% 485 4464;/

gmuenoz, Samuel Brand His Glicine.

S. BRAND CASH REGISTER Aug. 15, 1933.

Original Filed June 10, 1927 5 Sheets-Sheet 2 aap Wwe/Wto@ Samuel Brand Ml/M His

Aug. 15, 1933. s. BRAND 1,922,025

CASH REGISTER original Filed .June 1o, 1927 5 Sheets-sheet :s

4 434 FIG' 7 450 435 4%@ 446 z 4Z?) 4 Illumin- O ik@ 310mm@ Samuel Brand Aug. l5, S BRAND CASH REGISTER Original Filed June l0, 1927 5 Sheets-Sheet 4 FIGJO Samuel Brand By MM Aug. 15, 1933.

s. BRAND 1,922,025

CASH REGISTER Original. Filed June 10, 1927 5 Sheets-Sheet 5 Samuel Brand Patented Aug. 15, 1933 UNITED '.srArss National Cash Register Company, ,l Dayton,

Ohio, a Corporation of Maryland Original application'ilune'10,.'1927, Serial No.

Divided and this applicationv November' 2s, 1930s-serial No. 498,680: l

' 14. omas. (ci, .2x5-127,)

'I'his invention relates to cash registersand like machines, and more particularly to the'lkey release, and key lock mechanism, and is illustrated as applied to a machine of the type disclosed in applicants co-pending application for United States Letters Patent, vSerial No. 197,941, iiled June 10, 1927, of which this application is a division; and the'United4 States Letters Patent to Bcrnis M. Shipley, N. 1,761,542, issued June 3, 1930.

The machine of the parent application referred to, is adapted to enter the amount of an. item into a totalizer, print such amount, reset the totalizer 'to zero, kand print the ttala'ccumulated on the totalizer, in a continuous'ope'ration without any further manipulation ofthe controlling mechanism. In performing vsuch operations the' machine. makes three cycles of operation, one cyclel for adding the amount linto the totalizer, and two cycles'forresetting tliejtotalizer 'to' zero.

One object of this invention is to provide means to release thejamount keys'at the end of the adding cycle of operation, but maintain the control keys in their depressed positionsjuntil the end of the resetting operation.

Another object is to disconnect 'the release shaft from'its restoringmechanismduring the adding cycle of a three-cycle operation, and tore-engage the members near the end'of the resetting operation.

With these and incidental objects in View, the invention includesjcertain novel features of construction and combinations of parts, the essential elements of which are set forth in appended r claims and a preferred form or embodiment of which is hereinafterdescribed with 'reference to the drawings which accompany and form a part of this speciiication.

In the drawings f Fig. 1 is a view in right elevation of the machine. A K A Fig. 2 is a detail s'ideview of a part of the re'- lease mechanism. y f n Figs. 3 and 4 are details of parts shown in Fig. 1.

Fig. 5 is a diagrammatic View of the keyboard of the present machine.

Fig. 6 is a detail View of one of the amount banks.

Fig. '7 is a detail front elevation of a part of the mechanism for coupling the three-cycle control shaft to the main operating mechanism of the machine.

Fig. 23y is a detail View of the three-cycle detent associated with'the iirst control bank to determinewhena three-cycle operation is to be performed.

' Fig.'9 is a detail view of the irst control bank of keys. 60

Fig.A l0` is a detail rear elevation of the release and interlocking mechanism.

Fig 1'1 is a detail'side elevation of the motor key and part ofthe mechanism actuated thereby.

VvFig;` l2 is a detail View showing the interlock between the control keysand the release shaft.

Fig. 13 is adetail perspective View of parts in the yrelease mechanism; l j Fig. 14 is raidetail side elevation of a part of the three-cycle' control mechanism.

Fig. l5 is a detail top plan view of part of the mechanism shown in Fig. 14;

Fig; 16 is a detail view showing a part of the three-cycle control mechanism.

General description In 'the' various `lines of business where a continuous balance of a customers account is desirable, machines of the type shown in the previously mentioned Shipley patent have been used with great success.

In such systems, when-an amount is to be either debited or credited to a customers account, the operator removes the appropriate ac- 35 count card from the file and notes the balance thereon. The amount, whether a credit or debit, is then set on the keyboard and the machine operated, the amount being entered on an adding and subtracting totalizer, thus entering the old balance into the adding and subtracting totalizer. Any number of credit ordebit items may then be entered into the totalizer, which results in a new balance, which can be printed by properly adjusting the machine, as is well known in the art. This adjustment is made through the medium of a total lever.

It was found, however, that this complete operation took considerable time, and therefore, applicant has provided an improvement to the existing mechanism, which considerably shortens the time'necessary to complete the entire operation.

This invention makes it possible to perform both the adding or subtracting operation, and the total-printing operation, in `one continuous operation.

This is accomplished by providing means for automatically making the necessary adjustments of the mechanism before a total printing operation, which adjustments were formerly made by manually setting the total lever. It is apparent that such an arrangement greatly decreases the time required to perform the complete operation, and at thesame time reduces the chances of error on the part 'of the operator.

As the machine illustrated herein performs the adding, or subtracting, and the total taking operation in one continuous operation, it 'is necessary that all depressed amount keys be released at the end of the adding, or subtracting, cycle, and the control keysI be Amaintainedl in their depressed positions in order to allow the machine to continue in operation to'perform a totalizing operation, and select the proper totalizer during the total taking cycles of operation. It is to this end that the present invention is provided.

Machines of the previously mentioned type,

are provided with a key release line which releases all depressedkeys at the end of each 0peration of the machine.

One means or accomplishing the objects `of this invention, is to construct the key release line, to permit a section of the line to operate without imparting any movement to the other section. To accomplish this, the section of the key release line lwhich normally releases the transaction keys, is disconnected from the drive for the key release line beforeV the key release line receives its movement to releasethe depressed amount keys.

The section of the key release line cooperating with the amount keys, being operatedwithout imparting any movement tothe 'section of the line cooperating with the transaction keys, releases all the depressed amount keys near the end of the adding cycle of operation. The section of the release shaft which Areleases the transaction keys is again coupled to the section of the release shaft vwhich releases the amount keys near the end of the totalizing operation to release the depressed transaction keys.

A special detent acted upon by certain of the transaction keys, controls the machine to Vmake the adding, or subtracting, andthe totalizing operations, in one continuous operation of Athe machine. This requires three cycles o f operation, one cycle for adding, or subtracting, and two cycles for totalizing.

The transaction keys acting on the detent to control the machine to perform an automatic totalizing operation, couples a gear drive intermediate the main drive shaft and a totalizing control shaft, causing the totalizing control shaft to receive one rotation during the three cycles of Aoperation of the machine, one-third of a revolution during each of the three cycles of operation.

It is this control shaft that makes the proper adjustments necessary for a total taking operation, including the disconnecting of that part -of the key release line at the proper time, to permit the transaction keys to remain depressed, and then reconnecting the section near the end of the second totalizing cycle, to release these keys in the usual manner.

Operating means The present machine may be operated either by an electric motor or a crank, as desired. The electric motor is of the well known type 'used in the previously mentioned machines. Thisimotor isladapted to rotate a shaft 37 (Fig. l) supported by'tlie machine side frames.

The shaft 37 is the main drive shaft of the machine, and is given one complete rotation on each adding, or subtracting, operation of the machine, and two complete rotations for each totalizing operation.

The starting :of the notor is controlled by a key release shaft 43, in the well known manner, which is rocked by means hereinafter described,

I'o'lithe depression of the transaction keys and 'the starting key.

If for any reason the electric motor is not used, the machine may be operated by a crank handle 4'6, shown :in dotted-lines in Fig. l. This handle is' 'operatively 'connected to a gear 47, meshing With a large gearfl mounted on a stud 49 in the right-,hand side frame of the machine. The gear 48 meshes with a gear 413, fast on the righthand end of the main drive shaft 3i'. Due to the gear ratio, it requires two complete rotations of the handle .46 to rotatethe main drive shaft 37 mme.

Keyboard The machine 'illustrated isprovidedwith 'a plurality of banks orjafnnt keys 6 0 (Figst and e). Any desired 'number'of banks may`be"provided in 'order toI givevthe lrrialchine the desired registering capacity. These 'banks 'a're identically the san'fc'as 'the amount banks shown and 'described in the above mentioned Shipley patent, and'the copen'diii'g pa'rent"appli`cation, and therefore', a very lrijef description thereof willfbe lgiven herein.

The amountkeys y 6c aremounted in key frames 6l, slppbrted =at ,theirflower'en'dsby a rod '62, and'at their 'upper 'ends by arod 63, extending between the main side frames of the machine. Each'key 6G"c00p f 1"a` S',`,With" a tletent,64;v The detent -64 is supp-breed variar-65 iat-its' upper end, 'andron armfbftfts lower end. VEach key is'held in itsundepreslsed position .by the well krfown spring (not shown) Eachre'y' sors provided with a shoulder, which', when the ke'y is depressed, Acontac't's"a corresponding pin -on the detent'i, therelyr'ocking the detent downwardly until the shoulderlon the key has passed the pin on tliedeten't, whereupon "the 4deten't`64 inoves `up wardly under the `as'ualsprin''s tension, far enough to prevent 'the'key 'from 'returning 'to its normal outer'positio'n. y

The transaction keys areof the same general construction as the ja'fmunt keys, and 'as 'illustrated,`the machine includes threeba'nks of transaction keys 90 KEig. |`5)', reading 4'from right Vto left, the banks will be 'referred'lto herein as the first, second, and third transaction banks, respectively. All ,three lb'anks of 'transaction' keys are constructed exactlyalike, except that the number of keys in the bank's vary according to the requirement-of the'system illustrated, and therefore, only the rst bank is illustrated.

The transaction vk'ey's 9'0 (Fig. '9) aremounted in a key frame 61 similar to the frames of 'the amount keys,"`and supported 4on lthe previously described rods 62 Iand 463.

Each of the control keys `90 has a 'pin 100 to cooperate with an inclined surface cna detent 91 to cam the detent downwardly when a key is depressed. When the pin V:100l "on the depressed key has passed Ithe respective inclined surface on the detent 91, the detent moves `upwardly to position a corresponding vhook over the pin 100 ofthe depressed key to re't'ain the key depressed.

To insure vthe complete depression of a transaction key, an arm 92, supporting the upper' end of the detentl 91,'has a'pro'jecting finger' carrylli) fis

ing a pin 93, projecting through the bifurcated @ed 0.f-.2\1,1i11te11 =.1. ieg .member 9e., @netmeet- ,ec en' a.' 'snafu 95,; extending ,between juge, side vframes o'fiziiefmachine.

the spring .115 and the arni`117.

Normally therelease shaft 43 is4 prevented from rocking underthe influence of the spring 115, by the vcontzicting .of a stud ,1 18 (Fig. 2) carried by an arm1`19`, with alpairof retaining'pawls v12() and 121 (Figs. 2, 10 and,v13) ,.'pivotally mounted on the shaft 95. .Asilo'nggr `aseither'l oneY of the retainingpatvls 12() and 1 21rem'ains in thepath of the. s't1 1dfl16, ,v the shaft 43 cannotberocked clockwisehy the spring 115 to release the machine.

-The. 'retaining Apavvls 121 Yand 120 are Withf drawn fromthe path` of the stud 118, by the depression .of. af'transactionkey() (Fig. 5) and .thefdepress'ion o'fa vmotoror starting key 107, ref speetively.v .A

The retaining pawl 121 is rocked outf'of the path of the stud 118'by a mechanismfactuated by,a lcontrol bar 150 (Figs. 9 and 12), 'onebeing provided in each transactijenbankl Eachcontrol bar 150 is pivoted at its ripper end toa supporting arm 1 51, ,(Fig. 12), carrying a"pin .152 projecting therefrom, andinto lthe plane of anl upwardly extending arm 153, loosely mounted on the shaft 95. An arm 153 (Fig. 13) n,is lprovided above, each transaction bank, the Aouter'arms 153 being connected by a yoke 155,' and the center arrn l53 isvbifurcated to straddle the yoke 155. Thus the three arms 153 andyoke 1;55'.are rocked by depression of any one of the transaction keys 90, which keys, through pins 100, cam the` con? trol bar downwardly. .t

The two' lotverlnost keys 90, of the rst transaction bank, -do not shift the control bar 150, since the control bar is notched opposite the pins 1GO orthese two keys.v Howevenother means, hereinafter described, is provided for rocking the yoke '1 55and,thereby rocking the pawl 121 to the ineffectiveA position.

The yoke 155 has a pin a projecting therefrom (Fig. 13), which cooperates with a forked arm 158 of a yoke 163,l also loose on the shaft 95. At its :right-hand1end this-.yoke 163. is integral with thretaining pawl 121. Wheneverthe yoke 155 is rocked, as.:above describedby the depression ofanyone ofthe transaction keys 90, the yoke 163 is also rocked to withdraw the retaining pawl 121 out of the path of the stud 118, leaving the .stud -1118 .retained by the retaining pa'Wl 120,"Whichis Withdrawn by the motor starting key 1l)'7.. '.Y

A means is provided to compel the complete depression of atransaction key 9o before the shaft .43can be released, Which comprises a hooked arm'i156 (Figs..12 and 13) vpivoted on the shaft95,` and bifurcated to straddle the yoke 155. The )hooked -arm-156 rnormally cooperates with an arm 157, secured to the sleeve 98, the sleeve being nor'mall'ycoupled to, and rocks with, the release shaft 43.v The. arm 157 has a projecting finger whiclilies just beneath the hook 'of the arm 156,A thereby' preventing any movement of therelease shaftin clockwise direction to release-the machine for operation, Vuntil the yoke 155'is rocked by the depression of a transaction keygasrpreviously described. This movement o the yoke 155 rocks the hooked arm 156 counterclockwise, permitting the arm 157 and key release shaft 43, when released by the starting key, to rock unobstructed, to release the machine for operation; The inclined edges of the control bar 150 are so shaped that the hooked arm 156 is notcompletely Withdrawn from the path ofthe arm 157 until the transaction key is latched down-bythe'- detent 91. This prevents mismanipulation of the machine by withdrawing the pawl 121, and then permitting the key 90 to release. Y Y Y vAs explainedin the parent application referred to abovepthe rstftransaction bank controls theselection of a column for printing. As describedfinsaid application, the' zero stop pawl for Athev-iirsty transaction bank controls the se lection' of a certain column, which column is selected Whenanyone of the two lowerrnost keys are depressed; f Thus it is necessary to prevent the rocking 7of the Zero stop pawl for the first bontrolbankfto its ineffective position upon depression of one of'these two keys. To this end control bar 150 (Fig. 9) is recessed opposite the two"lowermost keys 90 of the rst transaction bank, and therefore, depression of either one ci these two keys does not actuate the control bar 150 tov withdraw the pawl 121, as heretofore described... Forl this. reason other means is provided to withdraw theretaining pawl 121 to its ineective position, by the depression of the two -lowermost keys in the rst transaction bank.

yA special'control bar 610 (Fig. 8) provided in the rsttransaction bank of keys, has inclined walls 611 -in position to cooperate with the pins on the twojlowerrnost keys in this bank. The special control bar 610 has an upwardly extending arm.'612, having a cam surface 613 formed on its upperend, cooperating with a pin 614, proiecting from an arm 615 secured to a shaft 178. Also secured to the shaft 178 is an arm 179, carlying a stud '180, cooperating with the lower end i 4 ofan arm 181, pivoting on the shaft 95. The arm 181 carries a stud 182, normally bearing against the hooked arm 156 which straddles the yoke l155.`

Thus, depression of either of the two lovver- 178 clockwise. 'Ihe arm 17,9 on Vits 'clockwise movement -with fthe shaft 178, through the stud 180 projecting therefrom, rocksthe` arm 181 counter-clockwisarcausing the stud 182 to rock the hooked varm 156 and the yoke 155 counterclockwise. The Ycounter'-:clockwise movement Vof the yoke 155 removes theretaining pawl 121 (Fig. 13), from the path of the stud 118, in the Lpreviously described manner.

l After the retaining pawl 121, and the hooked arm 156 have been moved to an ineffective .position, by depression of a transaction key 90. the starting key 107 (Fig. 11) must be depressed to withdraw the retaining pawl 120 from the path of the stud 118.

The shank 130 of the starting key 107, is bifurcated and vremovably mounted on Aa pair of studs 131, carried by a plate 132, slidably mounted on studs 133 and 134, supported -by the righthand side frame. The plate 132 also carries a pin 135, embraced by the lbifurcated fend of one arm of a lever 136, pivoted on a stud 137 in the right-hand side frame of `the machine. A pin 138 projecting'from the opposite arm'of the lever 136 is embraced by the bifurcated end of an arm 139, pivoted on the shaft 95. The arm 139 is connected with a hooked arm 140 -by a yoke '141. When the= starting key 107 is depressed, the hooked arm 140, through the yoke 141, arm 139, lever 136, and plate 1-32, is rocked clockwise about the shaft 95.

A stud 142 carried by an, arm 143 pivoted on the key release shaft 43, is adapted to cooperate with the inner periphery of the'hooked arm 140. The hooked arm, due to the curvature of its inner periphery, cams the stud 142 to rock the arm 143 clockwise about its pivot. Connected to the arm 143 by a yoke 145, (Figs. 2 and 11) is a bifurcated arm 144 embracing a stud 146 projecting from the retaining pawl 120, which normally prevents movement of the stud 118- and arm 119, and thereby prevents the release-of the machine.

Therefore, when the arm 143, yoke 145 and arm 144 are rocked clockwise bythe depression of the starting key 107, the retaining pawl 120 is rocked counter-clockwise about the shaft 95, and is thereby withdrawn from the path'of the lstud 113.

Thus, since the retaining pa-W1121 is withdrawn from the path of stud 118 by depression of a transaction key 90, and the retaining pawl 4120 is withdrawn from the path of the stud 118 by thestarting key 107, the key release shaft 43 is free to be rocked in a clockwise direction by the spring 115, (Fig. 1) until arrested by the face 122 of the arm 117 striking a stud 123 projecting from the right side frame. The stud 118 is then positioned beneath the retaining pawls 120 and 121, and above a pawl 147 (Fig. 2) loose onthe shaft 95. This pawl 147 is the well known non-repeat pawl'which prevents an immediate second operationfof the machine, should the motor starting key 107 be held in its depressed position at the end of:a mormal adding operation of the machine. The pawl 147 is connected to the pawl 120 by a spring 143.

The clockwise movement of the key release shaft 43 releases the machine for operation, whereupon the motor drives the main drive shaft 37 one cornplete rotation in the well known manner.

The main drive shaft operates differential mechanisms controlled by the depressed keys, which in turn, control the selection of the totalizers, the amounts to be added therein, the setting of the indicators, and setting type carriers according to the value ofthe depressed amount keys, as is old and well known in the art.

. -Key releaseA .Neanthe 'end of anormal'adding operation, v'the release'shaft '43 is rocked in a counter-clockwise direction past its normal position, to Vrelease the depressed keys, and thenclockwise to its normal position, where it is arrested by the retaining pawls 120 and 121 until again released for operation. The means for restoring the release shaft to its normal position, includes the well known gear 48 (Fig. 1) which receives one-half of a rotation during a normal addingoperation of the machine. The gear 43 actuates an arm 301 pivoted on a stud 300,A projecting from the right side frame. The arm 301 carries la stud 302 normally abutting against a'shoulder 303, formed on a coupling lever 304, pivoted to the previously mentioned link 116. The arm y301 Vis provided with the usual roller 306 projecting 'into acam groove 305 formed in the sidefo'f the gear 48. The cam groove 305 is so shaped that near the `end 'of each operation of the machine, the arm'301 is rocked clockwise and then counter-clockwise to normal position.

On the clockwise movementof the arm 301, the stud4 3 02 contacting the shoulder 303 of the coupling lever 304, moves the coupling lever 304 and link 1 16"dow nwardly, the upper end of the slot in the link 116 striking a stud 113 on the arm 117 to rock'the a1'm`117 and shaft 43 counter-clockwise beyond Vits normal position. During the counter-clockwise movement of the release shaft 43, a universal rod 63 (Fig. 6) carried by a plurality of arms V69 secured on the release shaft 43, strikes tails formed on -the 'upper detent supporting iii ks to niove'the detents 64 downwardly far enough 'topermit the shoulders on the keys to pass the pins carried by the detents, and thereby permit the usual key springs (not shown) to return the depressed amount keys to their lnormal undepressed positions.

The depressed transaction keys 90 are released by the arms 97, (Fig. 9), there being one arm 97 for each transaction bank ofkeys. The arms 97 are secured to the sleeve 98, which sleeve is normally coupled to and rocks with the key release shaft 43, have tails 99, which, on the counterclockwise movement of the shaft 43, are adapted 'to rock the detents 91 downwardly to release the depressed transaction keys 90, as is we'll'known in the art.

The return movement of the shaft 43, through arm 119 (Fig. 2) withdraws the stud 118 from between the pawls 120-121 and the non-repeat paw1147, to permit'the pawls 120 and 121 to return into the path of the flat face of the stud 118, in the usual and well known manner.

After the arm 301 (Fig. l) reaches the limit of its clockwise movement, to rock the release shaft 43 counter-clockwise past its normal position, the cam groove 305 returns the arm 301 counterclockwise to its normal position. The counterclockwise movement of the arm 301 restores the link 116 toward its normal position and permits the spring 115 to rock the release shaft 43 clockwise until the shaft 43 is arrested by the previously described retaining pawls 120 and 121. The link 116 continues to move to its normal position and compresses the spring 115. This stores enough energy in the spring 115 to permit it to actuate the release shaft as soon as the retaining pawls 120 and 121 are again removed from their effective position for the next operation of the machine.

Three-cycle operation In automatic totalizing operations the machine makes three continuous cycles of operation, one cycle foradding or subtracting, and the usual two cycles necessary for totalizing.

On totalizing operations, a great many devices in the machine are set, or their condition changed, by the movement of the total lever. In order 'to accomplish the automatic totalizing operation it is necessary to provide means to automatically make all the adjustments of the machine, which were heretofore made by hand, inasmuch as in the present application the tota-1 lever remains in its add position throughout the three .cycles of operation.

During the first cycle of a three-cycle operation, the machine performs the functions usually performed in a normal adding operation.' At the beginning of a three-cycle operation the release shaft 43 is rocked in a clockwise direction in the usual manner to release the machine.

.During totalizing operations it is essential that all of the amount keys be brought to their normal undepressed positions, before the second cycle of athree-cycle operation takes place, but as it is desirable to have the control keys remain depressed in order to select the proper totalizer for clearing, mechanism is provided for disconnecting the sleeve 98 (Fig. 9), which carries the release mechanism for the control keys, from the release shaft 43.

A special control shaft 419 (Fig. 1), is provided which disconnects the sleeve 98'from the release shaft, and automatically makes all the adjustments in the machine, which are normally made by the adjustment of the totalizing lever, during an automatic totalizing operation. This control shaft 419 operates only during automatic totalizing operations, and is given one complete rotation during the three cycles of operation of the machine.

The first, second, seventh and ninth keys of the first transaction bank (Fig. 8), control the drive for the control shaft. Thus, when one of'these four keys is depressed, the'driving means is made effective, to drive the control shaft, giving it two increments of movement during each Aof the three cycles of operation. These four keys are referred to hereinafter as the three-cycle keys.

The driving means for the control shaft 419 is shown in Fig. 1, and will now be described. A hub 410 pinned to the right-hand end of the maindrive shaft 37, carries the previously mentioned gear 413, which receives a complete clockwise rotation on each cycle of `operation of the machine. Loosely mounted on the hub 410 is a second gear 414 identical with the gear 413. The gear 414 meshes with a similar gear 415, which carries two rollers 416 and 417 projecting from the side thereof, to cooperate with a Geneva plate 418, fast on the control shaft 419 journaled in the side frames of the machine. The gear 415 carries a locking disk 420 which cooperates with the Geneva plate 418 to prevent movement thereof when either of the pins 416 or 417 is out of engagement therewith.

When a three-cycle operation is to be effected, the gear 413 is operatively connected to the gear 414 by two identical pinions 421 and 422 (Figs. i. and 7) supported by an arm 423, pivoted on a stud 424, supported by the right-hand side frame of the machine. As these two pinions 421 and 422 are securedtogether, it is evident that when they are rocked into engagement with the two gears 413 and 414, the driving movement of the gear 413 is transmitted tothe gear 414 which drives the gear 415` and the Geneva plate 418 for rotating the control shaft 419.:

Rocking the arm 423, in order to engage the pinions 421 and 422 with the gears 413 and 414, is controlled by the depression of any one of the four three-cycle keys (Fig. 8) in the rst transaction bank.

A three-cycle control plate 430 (Fig. 8) pivoted at 194 is formed with an inclined surface 431, to cooperate with each of the three-cycle keys. Thus, depression of any one of the three-cycle keys rocks the controliplate 430 clockwise, while depression of any other key in this bank does not rock the three-cycle control plate, since there is a straight notch opposite the pin 100 for these keys.'

A downwardly extending arm 434 of the threecycle. control plate 430 carries a projection 435, which enters a bifurcated arm 436, pivoted on a shaft 429.` The arm 436 (Figs. 7 and 8) is connected .by a yoke 437 with an arm 438. A second yoke 445`connects the arm 438 with van arm 446 also pivoted on the shaft 429. The arm446 (Figs. 1 and 7) carries a stud 447 projecting through an opening in the'side frame, and is joined to an aligner arm i448 loose on the stud 424. The arm 448 is connected by a hub 449 to the supporting arm 423, which carries the pinions 421 and 422.

It is evident that depression of a three-cycle key in the first transaction bank rocks the control plate 430 (Fig. 8) clockwise, and rocks the arm 436, yokes 437 and 445 and arm 446 (Fig. 1), counter-clockwise. This rocks the arm 448 and the arm 423 supporting the pinions 421 and 422 also counter-clockwise against the tension of a spring 453-, far enough to engage these pinions with the gears 413 and 414, to render the control shaft driving mechanism effective.

The control plate 430 (Fig. 8) is normally prevented frommoving counter-clockwise past its normal position under inuence of the springtensioned arm 423 (Fig. 1) by a pin 432 (Fig. 8) which cooperates with a finger 433 of the control plate 430.

The gear 414 is normally held in its properly aligned position by a tooth 450 carried by the arm 448, which normally extends between two of the teeth of this gear. However, when the arm 448 connected with thearm 423 is rocked counter-clockwise to engage the pinions 421 and 422 with the gears 413 and 414, the tooth 450 is disengaged from the gear 414 to permit rotation thereof. l

In order to align the pinions 421 and 422 so that the teeth of the pinions will enter the teeth space of the gears 413 and 414, a lug 452 (Fig. 7) projecting from the side frame, enters a notch cut in a disk 451 secured to the pinions 421 and 422, to hold the pinions 421 and 422 against rota- 'i tion when disengaged from the gears. However, as the pinions are rocked to their effective position, the notch of the disk 451 is disengaged from the lug 452, as the teeth of the pinions 421 and 422 engage the gears 413 and 414.

There are two notches in the disk 451, because the pinions 421 and 422 are so proportioned to the gears 413 and 414, that the pinions receive 21/2 complete rotations to one rotation of the gears, and therefore, it is necessary to have one of the aligning notches in each side of the disk 451.

Means is provided for locking the pinions in their engaged position, when the pinions 421 and 422 are rocked into engagement with gears 413 and1-414,funtil near. the end of thethree-cycle,l operation. rIhis means consistsof a lever-:460 (Fig. 1)V pivoted at 461 to the machine sideY frame, and carries-a'roller'462. (Fig. 14) Aprojecting into ar'cam groove 463 formed on the inside=of the previously describedgear- 413. Itycan' be' seen from Fig. 14 that immediately upon thefbeginning ofthekrotation of the gear 413, theV lever "460. is rocked clockwise-.4. i, 1 At its lowerend this leverf46() has a ilange 464 which,-when vthelever is vrocked as .-above deselsibed:takesaaA positiony .to the left of .a pin 1.4.65, asiviewed nrFi'g. -1,. carried by the lower end of the'arm; 423wh'enfa three-cycle key is depressed. The Iila1'ige".46.41.will thns'hold the pinions 421 and 422 in engagement with the gears 413.*and 414,1sthrou`ghout`smh. threeecycle operation. If however, no-1 thrleecycle` keyA hasbeen depressed;

the flange 44is moved to-theright'of the pin 465,"

and thereby prevents movement of '-the-armf 423 and: the engagement of the' pinions 421'fand422 throughout'. a single-cycle operation 'o'f `theT ma- Chine'.' titi j- -r y l cycle of a `threecyv'c'le 'operktizo1t- Yv During the rstcycle of athreecycle operation, thermachineperforms thexfunctions usually performed; inja Inormal addingoperatiom: "The release shaft is rocked in clockwise directiornas.

. is-1isualifinorder tof release: the machine.. .It is necessary :that depressed .amount keysibe in their.'norma'lfundepressed` positions, before'the second cycle of a three-cycle operation takes place, but as it is desirablev to have the cont-rolV keys remain depressed to' select the proper totalizer for clearing, mechanism isprovided for disconnectingthe release shaft 48 from'the sleeve' 98, during the rst cycle of the 'three-cycleopera." tion. The mechanism for releasingthe control 5 keys isiv -mounted on4 the sleeve"98', whichV `nrmally rocks with the key release shaft 43. :This sleeve` 98 connected with' the releasenshat43 irithfollowing. manner. y Y i Fast'to thef'endof'the sleeve 98^is amarla-47) (Figs. 1, 4 and 10) supporting a couplingpawl 471, which has la--not'ch' 472' (Fig. v'4) normally embracingia' stud 4731(Figs. 3 and 4) projecting from the' 'previously described arm 117, secured to.' the' release shaft 43. It. can'be seen'vthat 'the rocking movement of the arm 117 normallyrocks the' sleeve due to' the engagement of the notch 472 ofi the coupling pawl 471,-with lthe stud 473 projecting from the arm 117. 1

It is apparent that all that is necessaryfin-orderto disconnect the sleeve 98 from therelease shait 43, is to rock the coupling pawl '471`clock-l wisej far enoigfh to di'sengage the notch 47Zt1fiere-` in' fromV thestud 478'carried by ther arm 117.4 v'

is one'oflthe' adustments made by the eontrot shaft 4119, which operates only duringa threeecycle operation. 1

In the first cycle of a three-cycle operation, the' release shaft 43 is rocked-as usualto-release the machine for operation, and the pinions 421 and 422 (Fig. 1) are' rn. mesh With'the gears 413 and 414, thusdriving the control shaft 419.

1 It will'be remembered that'the control shaft 419 receives two= steps of movement during each cycle" of a three-cycle operation. The roller 417 of' the intermediate gear 415' enters one of the notchesloii the Geneva plate 418, and rotates the plate and shaft a distance equal to one-sixthof acomplete rotation, or 6@ degrees in clockwise direction. Atertheroll'er 417 has passed'out of engagement from the notchv in the plate, the-roller.416 enters, the next notch in the platej41-8 and jrotates. the plate and shaft another A6() de-A grees. The shaft, therefore, is given 120 degrees,..or one-third of the complete movement, on each cycle of a three-cycle operation.

Secured tothe control shaft 419 (Figs. 1 and 14) is a pair of cams 480, adapted. to rock a lever 4.83, one of the functions of which is to disengage the sleeve .98 from the release shaft 43.

The pair of cams 48() cooperate with a pair of rollers 481 and 482 carried by the lower end o f the lever 483, which is supported by the right side frame, to rock the lever 483 at the proper time. At its upper end the lever 483 supports one end of a link 484which at its left-hand` end is pivoted to anarm 485 loose on a stud 486 projecting-imm the machine side frame. The link 484 carries a roller' 487 (Fig. 14), which projects into a cam -slot488 formed in the lower end of a. levei` 478 (Fig. Yl), pivoted on a stud 479 (Fig. l) projecting from thev side frame.

The first 60. degrees of movement the cams 480 receive, does notrock the= lever 483, as the cams are, concentric during;this part of movement. During the second 6() degrees of movement that the cams 480 receive in the rst cycle, vthe lever 483 is vrocked counter-clockwise, causing the link 484; to move` tothe left, the stud 487 mounted therein rocking the lever 478 clockwise.

.AA stud 477 on the upper end of the lever 478 il.

holds ,a `lever 474 in the normalI position (shown in 1).. When the shaft 43, arm 11-7, coupling pau-'l 471, and' arm 470' are rotated upon release of themachinea camv slot 476 in the coupling pawl 4 71- vis moved -to embrace a stud 475 of the lever 474, duringv the releasing movement of the paw1471. 1

During therst cycleof a three-cycle operation, the lever 478 is rocked clockwise around the stud479', tolrock the lever 474 counter-clockwiser t Aft Ithis time the slot476 embraces the stud 475,l and therefore, the counter-clockwise movement vof the lever 474 rocks the coupling pawl471 to withdraw the notch 472 from the stud 473 on thearm 117. Subsequent rocking -v movement-o1V the arm 117 and shaft 43, by the link-.116., torelease the amount keys at the end lof the rstcycle of a three-cycle operation,

no eiect on the arm 470 and sleeve 98. Therefore, the releasing mechanism for the control frame of the -machina normally maintains the l" notch 472 of thevcoupling pawl 471 in contact with the stud-473 of the arm 117. The lower Wall of the coupling pawl 471 is concentric with the center of the release shaft 43, and therefore,

when the pawl 471 rocks clockwise upon release oi.- the machine, the stud 469, contacting the concentricedge ofthe pawl 471, maintains the connection between the notch 472 and stud 473 efiective.

stud 469 to subsequently permit the uncoupiing movement of the coupling pawl by the levers 474 and 478, and stud 475. The pawl is so formed However, at the end of such releasing movement a tail 468 on the pawl 471 escapes the that after it is. uncoupled the taill 468 thereof moves over the stud 469 to hold the pawl 471, arm 470, and sleeve98 in their moved positions, when the shaft 43 moves to release the amount keys.

'When the release shaft 43 is rocked counterclockwise (Figs. l and 6) at the end of the first cycle f of operation of the machine fto move the rod 68 into' contact with the links'- 65 to'release the depressed amount keys, the sleeve 98 (Fig. 2) will not rock therewith, because the sleeve is disconY nected from the shaft. Therefore, the'arm 119 and vthestud 118 =thereon,remain in their'operatedfpositio'ns tomaintain the pawls 120 and 121 in the machine releasingposition;V Afterthe shaft 43 has eifect'ed the release ofthe amount keys, it immediatelyreturns to itsmachine'fre# leasingiposition; since the pawls 120 andi 121 are held in Yreleased fpositions 'by fthelfarm 119 'and stud118. :'Thus' the macbin'econtinues to'foperate Without interruption afterrthe lfirst cycle-of ODIOnJL i., L

.. It isduring'the 'operations of the fmachine following .the first frcycleiin which .the -clearing 1 of the totalizer is accomplished. The control shaft 419 makes vthe necessary/fr adjustments to Icondition the machine to `.perform -a ltotalizingoperai tion, themachine operating through two cycles of operation @necessary clearing .the ltotalizer. f .Arshaft i333 Y(lig;-c`l),sis:rocked clockwiseijust at :the -end of .the yrstrcycle, atoiprevent. depression of the amount keys during the totalizing cyclesY of operatio'ni .'Thisv iclockwise movement of the shaft correspondsto :the -fmoveme'nt it.nor. mally receives `by the manual euijustrrient'of the total lever. to oneoffitsftotalizingpositions, as fully disclosed in the parent case:y I

The rocking of =the shaft 333y-byemanual ladjustment of the totalzlever,l couplesra vcam 310 and the intermediate-:gearl8r-through link 338, leverv 339,.' and ;pitman 1 308;; and .shifts a roller 309 vinto cooperative relation -with @the cam race of the cam`310, tozrockithe shaft 333. an addi tionall .movement -vduring .the operation ,to Ymove the y zero stop pawl f ofreach, amount` bank into itsY ineffective position .to permit .the differentials in each bank tomove under; control oftheitotalizer elements, asA isfwelliknoyvnin the art.: 1 During a threecycle operation; the total lever remains inits vadding-L ositiom.thus the connection between the total lever ,land thefshaft'333 must be `disconnected;to permit'- the rocking of the4 shaft at the end offthe'rst cycle of a threecycle operation.; This disconnection of the total leverandthe shaft-,333,f-and the rocking of the shaft `at the endv of the first cycle, is performed byv the `previously mentioned control shaft"419. A torsion spring 52,0-(Figs.,1 and 14)- encircles the shaft 33 3 land tends to v,rock the ',shaftclockwise. This movement is normally preventedaby a pawl 346 pivotally supported onpva stud 351 of an arm 347, securedto the shaft 333'. The pavvl 346 is normally--inengagement with a notch -345 of anarm 337, pivotally mounted on thehaft 333. Thearmsupports one end of thefpreviously` mentioned 338V whichholds the arm 337 against, anycounter-clockwise movement, and forms. an anchorfor oneend of thespring 52.0. Thus, it is necessary to `disengage, .the vpawl 346from the notch 345 of the arm 337, before the shaft 333 is freeto rock under the influence of the. spring. i y

The link 434is moved to the-left by the second step of movement of `-the control shaft 419 during the first cycle ofa three-cycle operation,

as `was previouslyV described.`

i Securedtothe hub o f thefarm 485,=supporting the left-hand end Aof the linkY 484, isa disengaging arm 521, carrying a roller-522 to .cooperatewith a projection V523 ofthe pawl 346.V The counter-clockwise. movement of the arm 521, .when rocked by the movement of thelink 484, causesthe roller 522, mounted thereonpto strike-the projection 523 of thebpawl 345, and rock the'lpawlrin lclockwise direction about its pivot to disengage the end of the pawl 346 from the notch 345 of the arm 337. The arm 347 and the shaft 333 `will then attempt to rock clockwise under the -iniiuence ofthespring 520, but this movement is prevented'at this time by the -engagement of an upwardly extending arm 524, of a bell cranklever 525, pivoted on the stud 486, which at the beginning of the operation is rocked clockwiseinto thevpath ofthe pivot `pin 351 of the paw1346 i :fr w.

.The shaft 333, -aspreviously"stated', is given its initial movement before the start of a normal totalA taking operation, by'the -adj ustment of 4the total levertobneof its totalizing positions. On a' .three-cycle' operatiomthe' shaft 1333 must be moved slightly clockwise'before the second cycle ofoperation, but not untiltheamount keys have been released-` therelea'se of'the'amount keys occursvery-'near the'end-ofthe iirstcycle, the movementoftheishaft1333 must" be rapid. VlForthiswreasona snap movementris provided, con'- trolled-by the larm 524,' which, as vljust mentioned,

the pathl of .thepivot p'inr351 at this time. But, afterthe -amount keys are released,'the arm 524 is withdrawn from lbeneath the stud 351,'to release the shaft 333'to the action of the spring 520;@,pw f I v Ilispreviously. described, the lever 460 (Fig. 14) is rocked clockwise at the beginning of theioperation bof. the machine,` to lock the' coupling -pinions 421 and-i422 '.inftheir -effective position. The upper end of the lever 460 is providedwvith a slot 528, into-which a stud'527 carried by a link- 526 projects. The link is supported at its opposite end by the previously described bellr crank lever 525. Thestud 527fof the link 526fis normally held in Contact withthe right-hand end of the slot 528'by a spring 324.

As. the lever 460is rockedclockwise at the beginning :of-the cycle,ithe link 526, urged by the spring 324, moves tothe lright, rocking the bell crank lever 525 clockwise to position the arm 524 of fthe bell crank levery 525 in the path of `the stud 351. z.

The arm 347 andshaft 333 are thereby held in their normal positions, after the pawl 346 is disengaged from the arm' 337, by the arm 524. near-the end of. the' :first .cycle the lever 460 is given its counter-clockwise movement by the cam groove 463, and through the link 526, restores the bell crank leverj525 and arm 524 'to'their normal positionto withdraw thefree end of the arm 524 from beneathv the stud 351. z This'releases the shaft 333 to the action of the spring 520 to rock the shaft 333 rapidly clockwise.

As previously described, the first counter-clockwise movement of the lever 483,A rocks the arm 521 and the roller 522 thereon,y counter-clockwise a sufficient distance to withdraw the nose of the pawl 346 from the notch `in the arm 337. The roller 522 is then in a position underneath the pawl 346. As this 'pawL the arm 347, and shaft 333 rock clockwise, as above described, the movement of the shaft 333 is limited bya surface 499 on ,the pawl346 contactingl the roller 522.

' 'A ISecond'c i/fcle of operation fr During the secondcycle .of operation it is necessary to z give the 'shaft 333 an additional clockwise movement to'move the Zero stop pawls in theamount banks to their ineffective positions, to permit theldiierentia-lsto be set' according to Very the values on their respectivel totalizer elements.

As previously described, the controlshat 419 (Fig. l) receives two steps or" movement 4during the iirst cycle of operation, these twosteps being equal to one-third of a complete rotation. Dur,- ing the second cycle of a three-cycle operation, the control shaft 419 receives vtwo additional steps of movement, and therefore rotates another onethird rotation.

The section of the cams 480 cooperating with the rollers 481 and 482 during the first step of movement during the second cycle, -is concentric, and therefore, does not rock the lever 483.v However, nearthe end of the second cycle the cams 480 receive their second step of movement to rock the lever 483 counter-clockwise from the position to which it was moved during the first cycle-ofoperation, to move the `aero stop pawls to their ineiectivepositions.

The second counter-clockwise movement of the lever 483, (Fig. 14), through the link 484, gives the arm 521 and roller 522 a further counterclockwise movement, during which the roller 522 enters a recess 529 lin the pawl '346, formed by the projection 523 thereon, and rocks thepawl 346, arm 347, and shaft 333 clockwise. It is this second movement of the shaft 333 which moves the zero stop pawl of each amount bank to its ineffective position, as fully described in the above mentioned parent case, to permit movement of the actuator under control of the totalizer wheel.

The movement of the lever-'478 (Figs. 1 and 14) during the first cycle, disconnects the sleeve 98 from the release shaft 43. During the movement of the link 484 and roller 487 during the second cycle, the cam slot 488 of the lever 478 is in a position, in which the roller 487 moves idly in the cam slot 488, without effecting any movement to the lever 478.

The stud 351 supporting the pawl 346 (Fig. 14) is rocked clockwise with the shaft 333 at the end of the iirst cycle, thus during the second and third cycles of operation, the stud 351 is in the path of the arm 524 of the bell crank lever 525, and prevents the bell crank lever 525 from rocking clockwise.

As the lever 460 is given a regular excursion on each cycle of operation, the slot 528 formed therein, moves idly over the stud 527, which projects from the link 526 connected to the lbell crank lever 525, and merely stretches the spring 324.

Near the end of the second cycle of a threecycle operation, the arm 301 (Fig. 1) is again rocked by the cam groove 305. To permit the machine to continue in operation, t0 complete its totalizing cycle, it is necessary that the sleeve 98 remain disconnected from the release shaft 43, so that the pawls 120 and 121 do not restore to their locking positions at the end of the second cycle of operation. It is also necessary that the release shaft 43 be prevented from rocking its normal distance at the end of the second cycle to prevent the rod 68 (Fig. 6) from striking the detent 65, which detent is locked against movement at this time by a rod 349 in the well known manner. This rocking of the release shaft 43 is controlled by rocking the coupling lever 304, to disengage the shoulder 303 from beneath the stud 302. This allows the stud 302 to rock idly in an opening 312 of the link 116, until it contacts a surface 530, Which then causes the link to move with the arm 301, and the shaft 43 then receives onlyva slight movement,

not sulcient to ,carry `the, rod- 68 against the links 65. As the-sleeve 98,1ris-disconnected fromthe release shaft 43, the arm 119 (Fig. 2') does,

link 531', which at its' left-hand end is pivoted' y to an arm 532, vpivoted on a stud 533 projecting from-the ina'iu'l Sider-rame of the machine. The arm532 isrconnected-by afyoke 534, ,to a: striker arm 535, froml which `two studs-536 and 537-'project laterally. In the normal position'of the, parts, ,as shown in Fig.: 116,.;the`stud' v53.6 is1 "in contact'with' the vlower endl of the coupling lever 304. Y' During the first cycle of operation, thev lever 483 is rocked counter-clockwise as previously described, the link 5B1-rocking the arm 1532 clockwise, and,` through the yoke 534, rocks the arm 535 and stud 536A clockwise-abolita stud 533, Amoving it away from the lower end of the coupling lever 304. v'Ille movement: of the stud 536 away fromY the coupling lever. 30.4 brings the stud 537 into contact with the left-side of the coupling'lever 304, but the 'movement of thestud 537 is not sufficient to rock the lever.- f L During'the'second cycle of a three-cycle operation, the lever 483 isv rocked farther in counterclockwise direction, as previously described, and as. the stud 537 vis -now in contact with the left side or" the coupling lever 304, continued movement of the vstriker arm535 and stud 537 about the pivot stud 533, rocks the coupling lever 304 counter-clockwise against the influence of a spring/538 a suiicient distance to remove the shoulder' 303 thereon' from beneath the pin 302.

The coupling-'lever l304 is guided in its movement -by a stud 539 'projecting from the link lr6, through a slot 540 in the lever 304. Thus, as the arm 301 (Fig. 1) is rocked at the end of the' second cycle, the shoulder 303 having been removed from beneath the' stud 302, the stud 302 moves idly in the opening 312 until it' contacts .the surface 530, rocking the link 116 and release 'shaft 43 slightly, as above stated, but as the sleeve 98 is disconnected from the shaft 43, the' shaft returns toits tripped position with the return of the stud to its normal position, and the machineA continues in operation.

,I Third cycle of a three-cycle operation pleted one complete rotation during the three cycles of operation of the machine.

. vDuring the rst step of movement of the cams 480 in the third cycle, the lever 483 remains in the position to which it was' rocked during the second cycle of operation. However, the second step of movement of the cams 480 receive, near the end of the third cycle, rocks the lever` 483 clockwise to its normal position. This clockwise movement of the leverl 483 to its normal position moves the link 484 to the right, restoring the shaft 333 -incounter-clockwise directionto its normal position, and .causes the paWl 3 46 to rie-A engage the notch 345 of the y.arm 337.

The rollei.487 Fig.` 1.4) on its return movement to normal position VWith the link 484 projecting into the c arn slot 488 of the lever 478, rocksthe lever 478` counter-clockwise to its. nor'- mal position, and due to the engagement of the stud 477 (Fig. 1) with the lovverendof .the lever 474, .rocks the latter clockvvisemoving the stud 475 from the bottom of 4the' slot 476 .in the paivl 471` to. a `position near the mouth of the slot, thus re-engaging the couplingpawl 471 with thestd 473 carried by the arm 117.

Asthe arm 117 .is rocked with the shaft 43, the paWl471, carried by the .arm 470 securedto the sleeve 98, the notch of the pawl 471 being engaged With 'the stud'473 in the arm 117,"causes the sleeve` 98 land-shaft 43 to rock as a The clockwise movement ofthe lever 483 (Fig.l

16) .through the link 531, also rocks the striker' arm 535 counter-clockwise to normal position, as shown in Fig. 16, permittingthe spring 538 'to rock the coupling lever 304 clockwise to position fthe shoulder 303 beneath the stud 302 (Fig. 1).

When the armBOl-is'rocked. clockwise at the end ofv the third cycle, the-stud302 .in engagement with the shoulder 303 of thecoupling lever 304, movesfthe link 116 doWnWar diyrocking the release shaft 43 and the sleeve98' counter-clock- Wise past their normal position.. l e The sleeve 98 being operatively connected with the shaft 43, rockswith theshaft to release the depressed control keys at `the ,end of the third cycle in the manner previously. described...

. When thesleeve 98, and lshaft43.*are rocked counter-clockwise beyond their normalpositions, thepawls 120.an d 121. .(Eig`. 2l infiuen'c'ed .by springs, take a position in the.` path .of `the stud 118, carried in the arm. 119, and thesleeve '98 andshaft43 are-thereforeheld in their normal position, Whichstops the. operation vof themachine, and the pawls remain in the .path of the stud 118 untilfagain released'for operation.V

This adjustment of the parts leaves the machine in condition for either another three-cycle operation, a normal tctalizing operation by adjustment of the totalizing lever, or an ordinary adding operation.

While the form of mechanism herein shown and described is admirably adapted to fulfill the objects primarily stated, it is to be understood that it is not intended to confine the invention to the one form or embodiment herein disclosed,

for it is susceptible of embodiment in various forms all coming Within the scope of the claims which follow.

What is claimed as new, is:-

i. In a machine of the class described, the combination of a release shaft; a tube surrounding a section of the shaft; a plurality of banks of keys; a plurality of members carried by the shaft and tube for releasing the keys; means to rock the shaft and tube as a unit to release any depressed keys; and means to automatically disconnect the tube from the shaft, and thereafter connect the tube and shaft, during certain operations to delay the release of certain of said keys.

2. In a machine of the class described, the combination of a release shaft; a tube surrounding a section of the shaft; a plurality of banks of keys; a plurality of members carried by the shaft and tube for releasing the keys; means to rock the a plurality of banks of amomit keys; a plurality of banksff special keys; a plurality of members carried by the shaft fo'r'releasing thefampunt'keys a pluralityof members 'carried by the'tube'for releasingthe special keys; and means effective during lthe first cycle o f'oper'ation todisconnect the'tube from the f4. In a machine of the classdescribed adapted to operatethrough a pluralityof cycles, the com?. bination of a release shaft; a tube loose on'the shaft; means toconne'ctthe tube tothe shaft; a plurality of banks of amount keys; 'a plurality of banks of special keys; a plurality of members carried `by the'shaft for releasing the amount keys;

a plurality of members ,carriedby the tube for releasing the special'keysjlmeans effective during. the first cycleof operation to disconnect the tube from, the shaft 'to releasethe amount keys only; and' means to reconnect the 'tube and shaft duringr the lastcycleof a plurality ofcycles torelease thespealikeysl i In 'a machine vof the class described, .the combination'of a plurality of keys,'j a key release shaft; 'a tube onthe.shaft; 'a member fast on the shaft and having a'pin projecting therefrom; anv arm secured to the tube; apivoted leveren the arm, said lever having'aI notch which normally engagesthe pin` carried yby themember to latch the tube'to the shaft; and means to automatically rock the notch'away'fromthe pin to'disconnect the tubefromthe shaf `ndthereafterlrock the notch intoengagementwith the pin, to delay thel release of certain of saidkeys.

' '6. 1n a machine .of the-class described, the combination of arel'ea'se shaft';'a"tube loose on the shaft; a member fast on the shaft and having a pin projecting therefrom; an arm secured to the tube; a pivoted lever on the arm, said lever having a notch which normally engages the pin carried by the member to latch the tube to the shaft; a cam slot formed in the lever; and a second lever pivoted on the shaft and having a pin adapted to cooperate with the slot to rock the first mentioned lever to disconnect the tube from the shaft.

7. In a machine of the class described, the combination of a release shaft; a tube loose on the shaft; a member fast on the shaft and having a pin projecting therefrom; an arm secured to the tube; a pivoted lever on the arm, said lever having a notch which normally engages the pin carried by the member to latch the tube to the shaft; a cam slot formed in the lever; a second lever pivoted on the shaft and having a pin adapted to cooperate With the slot to rock the first mentioned lever to disconnect the tube from the shaft; and means to automatically rock the second mentioned lever during certain operations of the machine.

8. In a machine of the class described, the combination of amount and special keys; means to release the amount and special keys at the end of the usual item entering operation, means to cause the machine to automatically perform an item entering operation and a total taking operation as vshaft to release' the amount iso ist

one continuous operation; and means to control the releasing means to release the amount keys near the end of the item entering operation and the special keys near the end of the total taking operation.

9. Ina machine of the class described, the combination of amount and special keys adapted to be depressed for item and total taking operations; means rendered active by certain of the special keys to cause the machine to perform such item and total taking operations in successive operations without interruption; means to release the depressed keys; and means to control the releasing means during the successive uninterrupted operations to releaseonly the amount keys during item entering operations and the special keys during total taking operations.

1D. In a machine of the class described, the combination of a normally locked machine release shaft; a plurality of keys; means operated bythe keys to unlock the shaft to release the machine; a locking detent for the keys; means connected to the shaft and operable upon return movement of the shaft to move the detent to release the keys and to lock the release shaft; and means to disconnect the last mentioned means from the shaft to retain the keys depressed and to permitthe shaft to automatically release the machine for an immediate subsequent cycle of operation.

11. In a machine of the class described, the combination with amount keys; control keys; a machine release shaft composed of two sections; and means to restore the shaft to its normal position; of a control shaft; driving means therefor effective upon depression of certain control keys; and a common means operable by the control shaft to render one section of the release shaft ineffective during one cycle and both sections ineifective during another cycle but effective during the last cycle, to permit the release of the amount keys and the control keys in different cycles. 12. In amachine of the class described, adapted to operate through a plurality of cycles; the

combination with amount keys; control keys; and a machine release shaft composed of a number of sections; of a control shaft; driving means therefor, effective upon depression of certain control keys; a pivoted lever operable by the control shaft and adapted to be given a number of steps of movement; means operable by vthe pivoted lever during one of its steps of movement to disconnect one section of the release shaft; and means operable by the second step of movement of the pivoted lever to disconnect the other section of the release shaft, to permit release of the amount keys and control keys in different cycles of operation.

13. In a machine of the class described, adapted to operate through a plurality of cycles; the combination vwith amount keys; control keys; a machine release shaft one section of which cooperates with the amount keys and another scction cooperates With the control keys; and means to rock the shaft at the end of each cycle of operation to release the depressed keys; of a control shaft; driving means therefor effective upon depressionof certain control keys; a pivoted lever operable by the control shaft and adapted to be given a plurality of steps of movement; means operative during one step of movement of the pivoted lever to disconnect one section of the release shaft to prevent release of the control keys; and a lsecond means operative during another step of movement of the pivoted lever to disconnect both sections of the release shaft, both sections being connected on the return of the pivoted lever to its normal position, permitting release of the amount keys and control kcy in different cycles of operation.

14. In a cash register adapted to be given a plurality of continuous cycles of operations, the combination of a release shaft, means for rocking said release shaft in one direction to release the machine, means for restoring said shaft to normal on every cycle of operation, and means for disabling said restoring means on the second of the plurality of cycles.

f SAMUEL BRAND. 

